KR20140042959A - A fishery buoy - Google Patents

Abstract

The present invention relates to a buoy for fisheries. The present invention comprises a main body (10) and end portion bodies (20, 20′). The main body (10) and the end portion bodies (20, 20′) respectively comprise main body cases (12, 22) which are formed from a hard material, and filling materials (14, 24) which are filled in the main body cases (12, 22). A coupling hole (16) and a coupling projection (26) are formed so as to be coupled with each other at corresponding positions of the main body (10) and the end portion bodies (20, 20′). A locking groove (17) and a locking rib (27) are formed at the corresponding positions of the main body (10) and the end portion bodies (20, 20′). In the locking rib (27), a guiding inclined surface (28) is formed so as to be inclined in order to be oriented in the direction in which the end portion body (20) is rotated so as to be coupled to the main body (10), and a locking surface (28′) is formed in an upright manner on the opposite side. A connection tool (30) is mounted around the outer surfaces of the main body (10) and the end portion bodies (20, 20′). A connection ring (34) is present in the connection tool (30) for connection with the outside.

Description

A fishery buoy

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fishing net, and more particularly, to a fishing net that is separable into a plurality of portions and filled with a foam material.

The fishery department plays a role in maintaining equipment for fishing on the water. For example, structures and catches for catching meat are kept on the surface of the water. Therefore, the fishing boats are designed to have large buoyancy.

The wealthy, which had been used for a long time, was made of so-called Styrofoam. However, the part made of the styrofoam has a problem that the hardness is lowered so that it is easily broken from the external impact.

To solve this problem, a buoy made of a hard material such as polyethylene was provided. These buoys have left the buoy interior space empty to provide buoyancy. However, when water is poured into the inner space due to a hole or breakage of the buoy, the buoyancy is lost and the water sinks into the water and the function is not performed.

To solve such a problem, a buoy filled with a foaming material such as a styrofoam inside a buoy made of a hard material such as polyethylene was provided as disclosed in the prior art document.

However, there is a problem in that it is not easy to fill the inside of the bead shown in the prior art documents, and thus the size can not be made large. Therefore, there was a difficulty in providing a relatively large-sized annulus.

In addition, if the conventional part is used in a place with a high wave, there is a problem that the part is inverted by the wave, so that it can not be installed exactly at a desired position.

Korea public utility model publication 20-1006-0004929 Korea Registered Utility Model 20-0327166

An object of the present invention is to provide a fishing rod which is made of a hard synthetic resin material and has a high impact resistance and is relatively large in size while being filled with a foam material that provides buoyancy to the inside .

Another object of the present invention is to replace only the damaged portion in the buoy and allow the remaining undamaged portion to be used as it is.

It is a further object of the present invention to minimize the impact of fishing buoys by waves and to prevent them from being displaced.

According to a feature of the present invention for achieving the object as described above, the present invention is formed is foamed in the inner space of the body case is formed by filling the filler to provide buoyancy and coupled to the main body and installed It is formed by being foamed in the inner space of the body case is filled with a filling material to provide buoyancy and is made to narrow the cross-sectional area toward one end includes an end body formed with a wave guide slope on the outer surface.

The outer surface of the main body is formed as a curved surface.

In order to couple the main body and the end body, a fastening protrusion having a male screw portion formed on an outer surface thereof and a fastening hole having a female screw portion formed on an inner surface thereof are formed at positions corresponding to each other of the main body and the end body.

On the surfaces of the main body and the end body in contact with each other, the locking groove and the locking rib for fastening the state in which the main body and the end body are coupled to each other is formed in a position corresponding to each other, the locking rib is the end body is fastened to the main body In order to rotate in order to the direction of the inclined guide inclined surface is formed on the opposite side to the guide inclined surface lock surface is formed upright.

The portion of the end body which is made to have a narrow cross-sectional area is conical.

The portion of the end body that is formed so as to narrow the cross-sectional area is formed by removing the columnar shape obliquely in the longitudinal direction.

A portion of the end body in which the cylindrical shape is obliquely removed in the longitudinal direction is formed over all or a part of the end body.

The connector is mounted surrounding the outer surface of the main body and the end body, the connector is provided with a connecting ring.

The connector is provided with a mounting body formed in the mounting groove formed in the main body and the end body and the connecting ring integrally formed in the mounting body.

In the fishing boats according to the present invention, the following effects can be obtained.

First, since the fishery part of the present invention is divided into a plurality of parts and assembled, the entire size can be relatively increased while the foam material is filled in the inner part, so that the heavy structure can be maintained on the water surface.

Next, since the fishery part of the present invention is divided into a plurality of parts, if the fishery part is damaged, only the part can be replaced and the remaining part can be used as it is. Therefore, the maintenance is good and the maintenance cost can be reduced.

The fishery part of the present invention has a cylindrical shape as a whole, and both ends of the fishery part of the present invention are made to have a narrower transverse section toward the tip, and a wave guiding slope is formed on the outer surface. Therefore, even if there is a certain degree of wave, it is guided by the wave guiding slope so that the fishery buoy can be maintained accurately in place.

In addition, the fishery parts of the present invention are formed by combining a plurality of fishery parts. The fishery parts are fastened to each other and the fishery buoy is more firmly held.

1 is a perspective view showing a configuration of a preferred embodiment of a fishing buoy according to the present invention;
2 is an exploded perspective view showing a configuration of an embodiment of the present invention.
3 is a side view showing the configuration of an embodiment of the present invention.
4 is a sectional view showing an internal configuration of an embodiment of the present invention.
5 is a perspective view showing the construction of a connector used in a fishing buoy of the embodiment of the present invention.
6 is a side view showing the configuration of another embodiment of the present invention.
Figure 7 is a side view showing the configuration of another embodiment of the present invention.

Hereinafter, preferred embodiments of a fishing buoy according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in the drawings, the fishery part of this embodiment mainly comprises a main body 10 and an end body 20 coupled to an end of the main body. In this embodiment, the end body 20 is attached to both ends of the main body 10, respectively.

The fishery part of the present embodiment is formed into a cylindrical shape as a whole. Therefore, the main body 10 and the end body 20 also have a cylindrical shape. First, the main body 10 has a cylindrical body case 12 formed on its outer surface. The body case 12 is made of a synthetic resin such as polyethylene (PE) or polypropylene (PE). A filling material 14 is filled in the inner space of the body case 12. The filling material 14 is made of a foamable material, such as a styrofoam. The body case 12 is relatively rigid to maintain the strength of the main body 10 at a predetermined level or higher. The filler material 14 serves to provide buoyancy to the main body 10, And filling the internal space of the main body 10 to prevent water from being introduced into the body case 12 even if the body case 12 is punctured or broken.

A fastening hole 16 is formed at the center of the circular shape on both sides of the main body 10. On the inner surface of the fastening hole 16, a female screw portion 16 'is formed. The fastening protrusions 26 of the end bodies 20 and 20 ', which will be described below, are respectively inserted into the fastening holes 16 and fastened.

A plurality of locking grooves 17 are radially formed on a circular plane on both sides of the main body 10 on which the fastening holes 16 are formed. The locking grooves 17 are arranged in a radial direction around the fastening holes 16 and are provided at a predetermined distance. In the present embodiment, four are arranged at intervals of 90 degrees. However, the number and arrangement interval of the locking groove 17 can be variously modified.

On the other hand, the pin groove 19 is formed at the end of the outer surface of the main body 10 adjacent to the plane on both sides where the fastening hole 16 is formed. The pin groove 19 is provided with a pin 19 'so that the coupling with the end body 20' to be described below is made accurately, and serves to prevent the coupling is released. However, the pin groove 19 and the pin 19 'is not necessarily used.

Both end portions of the main body 10 are provided with end bodies 20 and 20 '. The end bodies 20 and 20 'are also configured to be filled with a filler 24 inside the body case 22. That is, the main body 10 is composed of the body case 12 and the filler 14.

The shape of the end bodies 20, 20 ′ is well illustrated in FIG. 2, which is approximately cylindrical. That is, the side of the main body 10 coupled to the main body 10 is the same as that of the main body 10, and the side opposite to the main body 10 is narrowed toward the tip. That is, it becomes a conical shape. Due to the conical shape, the wave guide inclined surface 25 is formed at the tip of the end body (20, 20 ').

The wave guiding slope 25 serves to guide the wave when the fishing boats float on the sea when the waves come, and guide the waves so that the buoy is not inverted by waves. In other words, it prevents waves from being struck at both ends of the buoy for fishing to greatly receive the impact. In other words, the wave guide slope 25 guides the wave so as not to apply an impact force to the end bodies 20 and 20 '.

A fastening protrusion (26) protrudes on the opposite side of the wave guiding slope (25). The fastening protrusion 26 is formed in a cylindrical shape so as to be fastened to the fastening hole 16 of the main body 10 and has a male threaded portion 16'connected to the female threaded portion 16 ' 26 'are formed.

On the other hand, a plurality of locking ribs 27 which are engaged with the locking groove 17 are radially formed at one end of the end bodies 20 and 20 'having the fastening protrusions 26. That is, the locking rib 27 is formed in a shape corresponding to the position corresponding to the lock groove 17. As shown in the detailed view of FIG. 2, the lock rib 27 has a transverse cross section of a right triangle. The locking rib 27 has a guide inclined surface 28 having an acute inclination with respect to one end plane of the end bodies 20 and 20 ', and a locking surface 28' opposite to the guide inclined surface 28. Is formed. The locking surface 28 'is formed to be perpendicular to one plane of the end body 20, 20'.

For reference, the guide slope 28 is formed so as to look at a direction in which the fastening protrusion 26 is rotated to be fastened to the fastening hole 16. This allows the locking rib 27 to be smoothly inserted into the locking groove 17. The locking surface 28 ′ prevents the end bodies 20 and 20 ′ from rotating in the disengaged direction once the locking rib 27 enters the locking groove 17.

A pin groove 29 is formed on an outer surface of the end bodies 20 and 20 'adjacent to a plane of one end of the end bodies 20 and 20'. The pin groove 29 is a portion into which the pin 19 'is inserted.

On the other hand, the connector mounting grooves 10R and 20R are formed, respectively, to which the connector 30 to be described below surrounding the outer surfaces of the main body 10 and the end bodies 20 and 20 'is mounted. The connector mounting grooves 10R and 20R are formed to have a predetermined width and a predetermined depth.

The connector mounting grooves 10R and 20R are respectively equipped with a connector 50 as shown in FIG. 5. The connector 50 is provided with a ring-shaped mounting body 32, the connection ring 34 is fixed to the mounting body (32). The connecting ring 34 may be installed in a plurality of the mounting body (32). In addition, the shape of the connecting ring 34 is not limited to that of the illustrated embodiment can be made in various ways. That is, the shape of the connecting ring 34 according to the parts caught on the connecting ring 34 may be various. The hook 34 is a weight to prevent the fishing buoy is moved arbitrarily, and the tool or structure for catching the meat is hooked.

Next, Fig. 6 is a side view of the structure of the end body 120 constituting another embodiment of the present invention. The end body 120 is also filled with a filling material in the body case 122. The end body 120 has a cylindrical shape and is sloped to form a wave guiding slope 125. This is because even if the wave guiding slope 125 is provided only on the side facing the water surface, the impact applied by the wave can be sufficiently absorbed while exceeding the wave.

The fastening protrusions 126 are formed in a cylindrical shape on the side where the end body 120 is fastened to the main body 10. A male screw portion 126 'is formed on the outer surface of the fastening protrusion 126. In the end body 120 of the present embodiment, the configuration of the locking rib or the pin groove is omitted for convenience. Reference numeral 120R denotes a connector mounting groove.

Next, FIG. 7 is a side view showing the configuration of the end body 220 constituting another embodiment of the present invention. The end body 220 is also filled with a filler in the body case 222. The end body 220 has a configuration in which a wave guide inclined surface 225 is cut out obliquely in a cylindrical shape. This is because even if the wave guiding slope 125 is provided only on the side facing the water surface, the impact applied by the wave can be sufficiently absorbed while exceeding the wave. For reference, in the embodiment illustrated in FIG. 6, the wave guide sloped surface 125 is formed over the entire end body 120. In this embodiment, the wave guide sloped surface 225 is formed only on a part of the end body 220. .

In addition, a fastening protrusion 226 is formed in a cylindrical shape on the end body 220 to be fastened to the main body 10. An external thread portion 226 ′ is formed on an outer surface of the fastening protrusion 226. In the end body 220 of the present embodiment, the configuration of the locking ribs or the pin groove is omitted for convenience. Reference numeral 220R denotes a connector mounting groove.

Hereinafter, the assembly and use of the fishery part according to the present invention having the above-described construction will be described in detail.

 In the present invention, the body cases 12 and 22 constituting the exterior of the main body 10 and the end bodies 20 and 20 'are made by rotational molding, respectively, and the fillers 14 and 24 are filled therein. do. Thus, the buoys are divided into the main body 10 and the end bodies 20 and 20 'in order to more reliably fill the fillers 14 and 24 in the body cases 12 and 22.

The end bodies 20 and 20 'are fastened to both ends of the main body 10 made as described above. That is, the fastening protrusions 26 of the end bodies 20 and 20 'are inserted into the fastening holes 16 of the main body 10 and fastened. For this purpose, the fastening protrusion 26 is inserted into the fastening hole 16 while being rotated. That is, the male threaded portion 26 'of the fastening protrusion 26 is rotated and fastened to the female threaded portion 16' of the fastening hole 16.

The locking ribs 27 of the end bodies 20 and 20 'are seated in the locking groove 17 of the main body 10 at the last moment when the fastening protrusion 26 is fastened to the fastening hole 16. Walk. Guide lock surface 28 is formed in the locking ribs 27 so as to see the rotational direction of the end bodies 20 and 20 'and guides along the outer surface of the main body 10 before being inserted into the locking groove 17. Can be.

When the locking rib 27 is seated in the locking groove 17, the locking surface 28 'prevents the main body 10 and the end bodies 20 and 20' from being rotated relative to each other in the unwinding direction. . That is, the locking surface 28 'is in close contact with the inner surface of the locking groove 17 so that the main body 10 and the end bodies 20 and 20' are not rotated relative to each other in the release direction.

On the other hand, if the main body 10 and the end body (20, 20 ') is coupled to the pin 19' to the pin groove (19, 29) if necessary. The pin 19 'also serves to prevent the coupling between the main body 10 and the end bodies 20 and 20'.

The connector 30 is mounted in the connector mounting grooves 10R and 20R of the main body 10 and the end bodies 20 and 20 ', respectively. The connector 30 is seated in the connector mounting grooves 10R and 20R so that the position thereof is not arbitrarily moved.

The buoys for fishing made as described above are in a state of being floated by buoyancy on the surface of the sea or the like. In order to keep the fishery buoy at a predetermined position on the surface of the sea or the like, a weight may be added. The weight uses a connecting ring 34 of the connector 30. The connecting ring 34 can be connected by hanging the rope attached to the weight.

The connecting ring 34 may be connected to other structures and the like. For example, the structure for catching fish may be floated in a desired position by connecting using the linkage 34.

In this way, the waves can impact the fishing boats floating by buoyancy on the water surface. However, since the outer surface of the main body 10 has a curved surface, the impact of waves is dispersed and transmitted. Particularly, the portion of the main body 10 floating on the water surface is inclined so as to form an acute angle with the water surface, Even if the main body 10 is lifted a little, it is prevented that a large impact is instantly applied. The outer surface of the main body 10 serves as the wave guide inclined surface formed on the end body (20, 20 ').

In addition, the wave guide inclined surface 25 is formed at the end of the end body (20, 20 '), the impact applied by the wave is dispersed and at the same time the end body (20, 20') is slightly lifted by the wave Even if it can, a large impact is prevented from being momentarily applied in the longitudinal direction of the buoy.

On the other hand, damage may occur on either side of the main body 10 or the end body 20, 20 'while using the buoy of the present invention. For example, if the gun is intentionally shot to fit the main body 10 or the end bodies 20, 20 ', even if the bullet penetrates through the body cases 12 and 22, there are fillers 14 and 24. Water will not enter the interior of the body case (12,22).

The severely damaged part can be removed and replaced. For example, when the end body 20 is broken, only the end body 20 is detached from the main body 10 and replaced with another body. At this time, the pin 19 'is removed from the pin grooves 19 and 29, and the end rib 20 and the main body 10 are applied by applying a force to separate the locking ribs 27 from the lock groove 17. ) To release the fastening state and rotate the end body 20 so that the fastening protrusions 26 escape from the fastening holes 16. After the damaged end body 20 is thus removed, the new end body 20 may be fastened to the main body 10 again as described above.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

For example, in the illustrated embodiment, the end bodies 20 and 20 'are mounted at both ends of the main body 10, but one end body 20 is mounted to one main body 10. It may be. In this case, the main body 10 may be configured to have only one end body 20 and have the same shape as that of the other end body 20 'on the opposite side of the main body 10. That is, the wave guiding slopes 25 are formed at both ends of the entire buoy.

And, as described above, the pin 19 'and the pin grooves 19 and 29 are not necessarily present.

Also, the connector 30 is not necessarily used. For example, instead of using the connector 30, the structure or part connected to the buoy may be directly connected using a rope.

The main body 10 has a cylindrical shape in the illustrated embodiment, but may be any shape provided that the outer surface is curved. For example, an oak barrel.

In addition, although the fastening hole 16 is formed in the main body 10 and the fastening protrusions 26 are formed in the end bodies 20 and 20 'in the illustrated embodiment, these are in opposite positions from the illustrated embodiment. It may be formed. That is, the fastening protrusions 26 are formed in the main body 10 and the fastening holes 19 are formed in the end bodies 20 and 20 '. This also applies to the lock groove 17 and the lock rib 27.

10: main body 12: body case
14: filling material 16: fastening hole
16 ': Female thread part 17: Lock groove
19: Pin Groove 19 ': Pin
20,20 ': End body 22: Body case
24: filling material 26: fastening protrusion
26 ': Male thread 27: Mounting rib
28: Guide slope 28 ': Locking surface
29: pin groove 30: connector
32: mounting body 34: connecting ring

Claims (9)

A main body formed by being foamed in an inner space of a body case and filled with a filling material for providing buoyancy,
It is installed to be coupled to the main body is formed by foaming in the inner space of the body case is filled with a filling material to provide buoyancy and is made to narrow the cross-sectional area toward one end includes an end body formed with a wave guide slope on the outer surface Fishing buoy.
The fishing boom of claim 1, wherein the outer surface of the main body is curved.
The fishing buoy according to claim 1, wherein a fastening protrusion formed with a male thread on an outer surface and a fastening hole having a female thread on an inner surface thereof are formed at positions corresponding to each other of the main body and the end body for coupling the main body and the end body.
According to claim 3, wherein the main body and the end body is in contact with each other the locking groove and the locking rib for fastening the main body and the end body coupled state is formed in a position corresponding to each other, the locking rib is the end body The buoyancy fishing guide is formed to be inclined in the direction in which the direction to rotate to be fastened to the main body and the locking surface is formed upright on the opposite side to the guide slope.
The fishing boom according to claim 1, wherein a portion of the end body which is made to have a narrow cross-sectional area has a conical shape.
The fishing booth according to claim 1, wherein a portion of the end body which is formed so as to narrow the transverse sectional area is formed by removing a cylindrical shape obliquely in the longitudinal direction.
The fishing boom according to claim 6, wherein a portion of the end body in which the cylindrical shape is obliquely removed in the longitudinal direction is formed over all or a part of the end body.
The fishing buoy according to any one of claims 1 to 7, wherein a connector is mounted to surround the outer surfaces of the main body and the end body, and the connector is provided with a connecting ring. The fishing buoy according to claim 8, wherein the connector is provided with a mounting body formed in the mounting groove formed in the main body and the end body and the connecting ring integrally formed in the mounting body.

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